Alpine plant responses to natural temperature variation and experimental warming treatments in southern Yukon

Pieper, Sara

12 January 2010

Global climate models predict that the current trend of warming in the Arctic will continue over the next century. The productivity of arctic plants is often limited by short growing seasons with relatively low temperatures such that a warmer climate could have large impacts on plants and plant communities. This study characterised alpine plant responses to changes in temperature at an alpine tundra site near Whitehorse, Yukon, Canada. I examined relationships between plant productivity and natural temperature variations and assessed responses of plants exposed to an experimental warming treatment. Non-destructive measurements of reproductive and growth characteristics of four target species (Dryas octopetala, Lupinus arcticus, Polygonum viviparum, and Salix arctica) were taken annually from 1999 to 2008. There was no significant effect of the warming treatment (OTCs) on average daily mean temperatures as midday warming of up to 1.4 °C was largely offset by night time cooling in the OTCs. Vegetative measurements of target species showed no significant responses to OTC treatments. However, peduncles of D. octopetala and sections of P. viviparum inflorescences that produced bulbils were an average of 34.6 % and 64.7 % longer in OTCs than in controls, respectively. These treatment responses were likely due to plants responding to a factor other than temperature that was modified by the chamber. One vegetative and five reproductive characteristics were significantly related to annual variation in temperature. The summer of 2004 was exceptionally hot, and some species that did not respond to smaller fluctuations in temperature showed large changes in growth or reproduction in this year, perhaps indicating a non-linear response to temperature. Among the larger responses to the warm summer of 2004 was a shift in P. viviparum allocation from predominantly asexual to sexual means of reproduction. Measurements of plant community composition assessed at five-year intervals showed no differences in community composition between experimental plots and controls, and changes in composition over the study period were not uni-directional. In general, both individual plants and community composition were highly resilient to observed variation in summer temperatures. Other factors, such as nutrient availability, may be more important in determining plant responses to environmental change at this site than the direct effects of summer temperature variation.

plant ecology

International Tundra Experiment

open-topped chambers

plant reproduction

plant growth

climate warming

alpine tundra

community composition

EXAMINATION OF GEOLOGICAL INFLUENCE ON MACHINE EXCAVATION OF HIGHLY STRESSED TUNNELS IN MASSIVE HARD ROCK

Villeneuve, MARLENE

27 September 2008

A combined geological and rock mechanics approach to tunnel face behaviour prediction, based on improved understanding of brittle fracture processes during TBM excavation, was developed to complement empirical design and performance prediction for TBM tunnelling in hard rock geological conditions. A major challenge of this research was combining geological and engineering terminology, methods, and objectives to construct a unified Geomechanical Characterisation Scheme. The goal of this system is to describe the spalling sensitivity of hard, massive, highly stressed crystalline rock, often deformed by tectonic processes. Geological, lab strength testing and TBM machine data were used to quantify the impact of interrelated geological factors, such as mineralogy, grain size, fabric and the heterogeneity of all these factors at micro and macro scale, on spalling sensitivity and to combine these factors within a TBM advance framework. This was achieved by incorporating aspects of geology, tectonics, mineralogy, material strength theory, fracture process theory and induced stresses. Three main approaches were used to verify and calibrate the Geomechanical Characterisation Scheme: geological and TBM data collection from tunnels in massive, highly-stressed rock, interpretation of published mineral-specific investigations of rock yielding processes, and numerical modelling the rock yielding processes in simulated strength tests and the TBM cutting process. The TBM performance investigation was used to identify the mechanism behind the chipping processes and quantify adverse conditions for chipping, including tough rock conditions and stress induced face instability. The literature review was used to identify the critical geological parameters for rock yielding processes and obtain strength and stiffness values for mineral-specific constitutive models. A texture-generating algorithm was developed to create realistic rock analogues and to provide user control over geological characteristics such as mineralogy, grain size and fabric. This methodology was applied to investigate the TBM chipping process to calibrate the Geomechanical Characterisation Scheme. A Chipping Resistance Factor was developed to combine the quantified geological characteristic factors and laboratory strength values to predict conditions with high risk of poor chipping performance arising from tough rock. A Stress-Related Chip Potential Factor was developed to estimate conditions with high risk of advance rate reduction arising from stress-induced face instability. / Thesis (Ph.D, Geological Sciences & Geological Engineering) -- Queen's University, 2008-09-25 23:58:58.071

rock mechanics

numerical modelling

geological engineering

Tunnel Boring Machine

brittle rock

stress

constitutive model

alpine tunnel

geomechanical characterisation

tunnelling

Temperature-dependent butterfly dynamics

Wheeler, Jeanette

Unknown Date

No description available.

climate change

temperature-dependent growth

population dynamics

Rocky Mountain Apollo

Parnassius smintheus

Bernoulli process model

alpine meadows

Seed dispersal mutualisms and plant regeneration in New Zealand alpine ecosystems

Young, Laura May

January 2012

The New Zealand alpine zone has many fleshy-fruited plant species, but now has a relatively depauperate animal fauna. The key question is, therefore, are native alpine plants still being dispersed, if so where to and by what? I first measured fruit removal rates among nine common species using animal-exclusion cages to compare natural fruit removal by all animals, and by lizards only. Over two years, mean percent of fruit removed by early winter ranged from 25–60% among species. Speed of fruit removal also varied depending on species. Secondly, I quantified which animals disperse (or predate) seeds of those fruits, into which habitats they deposit the seeds, and the relative importance of each animal species for dispersal, in two ways. A 2-year study using fixed-area transects to monitor faecal deposition showed that introduced mammals (especially possums, rabbits, hares, sheep, pigs and hedgehogs) were abundant and widespread through alpine habitat. Of the 25,537 faeces collected, a sub-sample of 2,338 was dissected. Most mammals dispersed most (> 90%) seeds intact. However, possums (numerically the important disperser) moved most seeds into mountain beech (Nothofagus solandri) forest, while rabbits, hares, and sheep dispersed seeds mainly into open grassland dominated by thick swards of exotic grasses (e.g. Agrostis capillaris and Anthoxanthum odoratum); all are less suitable microsites. Kea (Nestor notabilis), the largest and most mobile of only three remaining native alpine bird species, are potentially useful as a long-distance seed disperser, even though parrots are typically seed predators. I found that kea are numerically more important than all other birds combined, damage very few seeds, and are probably responsible for most dispersal of seeds between mountain ranges. Finally, I investigated the effects of seed deposition microsite (shady/high-light), pulp-removal (whole/cleaned), competition (soil dug/not-dug) and predation (caged/ not) on germination, growth and survival of eight subalpine plant species. There were strong positive effects of shady microsites for seed germination and seedling survival to 3.5 years for six of the eight species. Effects of other treatments were less important and varied among species and stages. Hence, both native birds and introduced mammals are dispersing alpine seeds, but the mammals often deposit seeds in habitats unsuitable for establishment. Any evaluation of the dispersal effectiveness of frugivores must consider their contribution towards the long-term success for plant recruitment through dispersal quantity and quality.

alpine

kea

exotic dispersers

birds

mammals

plant recruitment

mountains

fleshy-fruit

germination

seedling establishment

montane

subalpine

possum

Neotectonics and Paleoseismology of the Central Alpine Fault, New Zealand

De Pascale, Gregory Paul

January 2014

The Alpine Fault is a major plate boundary structure, which accommodates up to 50-80% of the total plate boundary motion across the South Island of New Zealand. The fault has not ruptured historically although limited off-fault shaking records and on-fault dating suggest large to great (~ Mw 8) earthquakes (every ~100-480 years; most recently in 1717), making it potentially one of the largest onshore sources of seismic hazard in New Zealand. The central section of the Alpine Fault, which bounds the highest elevations in the Southern Alps, is one of the most poorly characterised sections along the fault. On-fault earthquake timing in addition to the amount of dextral slip during major earthquakes was unknown along a 200-km-long section of the central Alpine Fault, while the amount of co-seismic hanging wall uplift was poorly known, prior to the present work. In this thesis I address these knowledge gaps through a combination of light detection and ranging (lidar), field, and stratigraphic mapping along with sample dating to constrain earthquake timing, style of faulting, and hanging wall rock uplift rates. Using lidar data coupled with field mapping I delineated the main trace of the Alpine Fault at Gaunt Creek as a north-striking fault scarp that was excavated and logged; this is part of a 2-km-wide restraining bend dominated by low-angle thrust faulting and without the clear strike-slip displacements that are present nearby (<5 km distant along strike in both directions). Where exposed in this scarp, the fault-zone is characterized by a distinct 5-50 cm thick clay fault-gouge layer juxtaposing hanging wall bedrock (mylonites and cataclasites) over unconsolidated late-Holocene footwall colluvium. An unfaulted peat at the base of the scarp is buried by post-most recent event (MRE) alluvium and yields a radiocarbon age of A.D. 1710–1930, consistent with sparse on-fault data, validating earlier off-fault records that suggest a 1717 MRE with a moment magnitude of Mw 8.1 ± 0.1, based on the 380-km-long surface rupture. Lidar and field mapping also enabled the identification and measurement of short (<30 m), previously unrecognized dextral offsets along the central section of the Alpine Fault. Single-event displacements of 7.5 ± 1 m for the 1717 earthquake and cumulative displacements of 12.9 ± 2 m and 22 ± 2.7 m for earlier ruptures can be binned into 7.1 ± 2.1 m increments of repeated dextral (uniform) slip along the central Alpine Fault. A comparison of these offsets with the local paleoseismic record and known plate kinematics suggests that the central Alpine Fault earthquakes in the past 1.1 ka may have: (i) bimodal character, with major surface ruptures (!Mw 7.9) every 270 ± 70 years (e.g. the 1717 event) and with moderate to large earthquakes (!Mw 7) occurring between these ruptures (e.g. the 1600 event); or (ii) that some shaking data may record earthquakes on other faults. If (i) is true, the uniform slip model (USM) perhaps best represents central Alpine Fault earthquake recurrence, and argues against the applicability of the characteristic earthquake model (CEM) there. Alternatively, if (ii) is true, perhaps the fault is “characteristic” and some shaking records proximal to plate boundary faults do not necessarily reflect plate-boundary surface ruptures. Paleoseismic and slip data suggest that (i) is the most plausible interpretation, which has implications for the understanding of major plate-boundary faults worldwide. Field mapping, geological characterisation, geophysical mapping, and optically stimulated luminescence (OSL) dating of on-fault hanging wall sediments were used to better constrain the geometry and kinematics of Holocene deformation along the rangefront of the Southern Alps at the Alpine Fault near the Whataroa River. The fault here is dextral-reverse, although primarily strike-slip with clear fault traces cutting across older surfaces of varying elevations. Deformational bulges are observed along these traces that are likely thrust-bounded. A terrace of Whataroa River sediments was found on the hanging wall of the Alpine Fault approximately ~ 55-75 m (when considering uncertainties) above the floodplain of the Whataroa River. OSL ages for a hanging wall sediments of 10.9 ± 1.0 ka for the aforementioned terrace, 2.8 ± 0.3 ka for Whataroa River terrace deposits in a deformational bulge, and 11.1 ± 1.2 ka for a rangefront derived fan indicate Holocene aggradation along the rangefront and hanging wall uplift rates of 6.0 ± 1.1 mm/yr. The sub-horizontal, laterally continuous, and planar-bedded Whataroa-sourced terrace deposits suggest that the adjacent bounding faults are steeply-dipping faults without geometries in the shallow subsurface that would tend to cause sedimentary bed rotation and tilting. Using data from the approximately 100-m deep pilot DFDP boreholes together with lidar and field mapping, I present a review of the Quaternary geology, geomorphology, and structure of the fault at Gaunt Creek, and estimate new minimum Late-Pleistocene hanging wall rock uplift rates of 5.7 ± 1.0 mm/yr to 6.3 ± 1.1 mm/yr (without considering local erosion) that suggest that the Southern Alps are in a dynamic steady state here. GPS-derived “interseismic” vertical uplift rates are < 1 mm/yr at the Alpine Fault, so the majority of rock uplift at the rangefront happens during episodic major earthquakes, confirming with on-fault data that slip occurs coseismically. Notably the uplift rates from both Mint and Gaunt Creek are consistent between the two sites although the primary style of faulting at the surface is different between the two sites, suggesting consistent coseisimc uplift of the Southern Alps rangefront along the Alpine Fault in major earthquakes. This thesis collected new on-fault datasets that confirm earlier inferences of plate-boundary fault behaviour. This study of the high-uplift central section of the Alpine Fault provides the first on-fault evidence for the MRE (i.e. 1717) and repeated of dextral slip during the MRE and previous events as well as new hanging wall uplift data which suggests that the majority of rangefront uplift occurs in earthquakes along the Alpine Fault. Because the fault has not ruptured for ~300 years, it poses a significant seismic hazard to southern New Zealand.

Alpine Fault

New Zealand earthquakes

plate boundary faults

great earthquakes

Southern Alps

1717 earthquake

on-fault dating

coseismic uplift

neotectonics

paleoseismology

What prevents hybridisation in Celmisia?

Gosden, Jane Louise

January 2012

Hybrids are common, being found in about 25% of all plant species, but the isolating barriers which preserve species integrity are poorly studied. I investigated this question in the large New Zealand genus Celmisia Cass. (Asteraceae), which hybridises readily in cultivation, but wild hybrids are relatively rare. My study quantitatively tests four potential reproductive isolating barriers in 12 sympatric species of Celmisia found in the Craigieburn Range, inland Canterbury, New Zealand. I examined two potential prezygotic reproductive isolating barriers (flowering phenology and pollinator specialisation), and two potential postzygotic barriers (pre-dispersal seed predation and hybrid seed germination). I used null models to test whether Celmisia species had temporally segregated flowering times, and found that some Celmisia are temporally segregated and thus less likely to form hybrids. I used experimental pair-wise flowering arrays to observe insect visitation to six different Celmisia species pairs. While I found no difference in the overall pollinator community, several insect families showed preferences for some Celmisia species. Furthermore, I found that subtle floral character differences were driving these insect preferences. In particular, I found scape height to be positively associated with insect visitation with taller Celmisia being favoured over shorter species. Insect preferences did not translate into strong floral constancy, therefore indicating that Celmisia flower visitors are likely to be a weak barrier to hybridisation. I reared a range of insect seed predators from field-collected capitula of the hybrid C. x pseudolyallii and both parent species (C. lyallii and C. spectabilis). There was no overall difference in the number of seed-predators per capitulum between hybrid and parent Celmisia taxa. I collected and sowed seeds from three Celmisia hybrids and their parent species in order to test whether hybrids were less fertile than their parent species. I found no evidence to suggest that the seeds of hybrids had lower germination success than those of their parents. Overall I found evidence for only weak prezygotic reproductive isolation and no evidence for postzygotic isolation in the four barriers I examined in Celmisia.

Celmisia

mountain daisies

alpine plants

hybridisation

phenology

pollination

seed predation

germination

Trupanea

reproductive isolating barriers

prezygotic

postzygotic

Etude des communautés microbiennes dans les neiges du Mont Blanc en relation avec les poussières sahariennes

Chuvochina, Maria

20 October 2011

L'objectif de cette étude est d'évaluer à l'aide des techniques de phylogénie moléculaire la diversité bactérienne non cultivable dans le manteau neigeux du Mont Blanc (MtBl) contenant de la poussière saharienne déposée au cours de quatre événements pendant la période de 2006 à 2009. Le but final est de découvrir les bactéries qui pourraient être impliquées dans l'établissement du microbiote neigeux.

Neige alpine

Extrêmophiles

Bactérie

Glacier du Mont Blanc

la poussière du Sahara

Colonisation

The Future of Squaw Valley and Alpine Meadows

Friel, Brian

01 January 2015

This paper examines the ongoing conflict between Squaw Valley Ski Holdings and the local Tahoe community and analyzes this conflict within the greater historical context of ski resort consolidation and development across the Western United States.

Squaw Valley

Alpine Meadows

Skiing

KSL

Development

Tahoe

Environmental Health and Protection

Natural Resources Management and Policy

Public History

Temperature-dependent butterfly dynamics

Wheeler, Jeanette

11 1900

Climate change is currently a central problem in ecology, with far-reaching effects on species that may be diffcult to quantify. Ectothermic species which rely on environmental cues to complete successive stages of their life history are especially sensitive to temperature changes and so are good indicators of the impacts of climate change on ecosystems. Based on data collected in growth experiments for the alpine butterfly Parnassius smintheus (Rocky Mountain Apollo), a novel mathematical model is presented to study developmental rate in larval insects. The movement of an individual through larval instars is treated as a discrete-time four-outcome Bernoulli process, where class transition and death are assigned temperature-dependent probabilities. Transition and mortality probabilities are estimated using maximum likelihood estimation techniques. This adult emergence model is then integrated into a reproductive success model, and multi-year implications of climate change on the population dynamics of P. smintheus are explored. / Applied Mathematics

climate change

temperature-dependent growth

population dynamics

Rocky Mountain Apollo

Parnassius smintheus

Bernoulli process model

alpine meadows

Étude des perturbations thermiques profondes associées aux contextes hydrogéologique et paléo-environnemental des massifs alpins : exemple du versant sud de la moyenne Maurienne / Study of deep thermal disturbances associated with hydrogeological and paleo-environmental alpine massifs settings : example of the mid Maurienne valley

Mommessin, Gregoire

01 July 2015

Les travaux de reconnaissance menés par la société Lyon-Turin-Ferroviaire (LTF) pour le projet de tunnel international ont conduit à l'acquisition de diagraphies différées sur un grand nombre de forages profonds. La synthèse des données a permis de mettre en évidence des anomalies thermiques profondes au sein du massif à proximité du front du Houiller et dans la série siliceuse de Vanoise. Ces anomalies sont confrontées à un modèle conceptuel intégrant des circulations d'eaux souterraines homogènes dans les zones décomprimées de versant et localisées dans les zones profondes ainsi que les effets thermiques associés. Le modèle conceptuel considère un état thermique transitoire des massifs dépendant du contexte paléo-climatique.A proximité du front du Houiller, une modélisation numérique du secteur a permis de montrer que les anomalies thermiques rencontrées sont cohérentes avec l'hypothèse d'une perturbation froide associée à l'activation, au début de l'Holocène, d'une circulation profonde localisée qui se propage par conduction dans le massif. La prise en compte, dans la modélisation, du changement de température au début de l'Holocène conduit à l'adoption d'un flux géothermique de 100mWm-2, donc plus élevé que les flux généralement considérés dans les Alpes.Dans la série siliceuse de Vanoise, les anomalies observées de gradients profonds peuvent être expliquées par une augmentation de la température des circulations dans la zone décomprimée de l'ordre de 2.4°C vers la fin du Petit Âge Glaciaire. Le réchauffement des circulations plus important par rapport au réchauffement de l'air à cette période est expliqué par une diminution des apports d'eau de fusion nivale dans la zone décomprimée. Ce résultat repose sur le développement d'une méthode 1D permettant d'estimer l'âge et l'amplitude d'une variation brutale de température à la limite d'un milieu semi-infini en conduction. Avant d'être appliquée aux données de diagraphies de forage, la méthode a été testée sur des données issues de simulations numériques reproduisant les températures obtenues dans un contexte de versant intégrant les effets du relief et la présence d'un flux géothermique. / The reconnaissance works for the Lyon-Turin railway tunnel project have led to well logs acquisition for a large number of deep boreholes. Data synthesis enabled to identify deep thermal disturbances inside the mountain massif in the siliceous series of Vanoise and in the vicinity of the Houiller Front. On the base of the well logs analysis and the mountain hydrogeology previous knowledge, a conceptual model of groundwater flows and their thermal effects in the massif is proposed to explain the observed thermal disturbances. It integrates both a uniform water flow in decompressed zone of the valley sides and local deep flows in the massif. The model assumes a transient thermal state related to the paleo-climate environment.First, 2D numerical modelling is used to simulate the thermal disturbances encountered under the valley side in the vicinity of the Houiller Front. In one hand, a thermal transfer by conduction in the massif and a cold temperature imposed near the Houiller Front at the beginning of the Holocene period leads to the current transient thermal state of the massif. The cold temperature near the Houiller Front is assumed to be the consequence of the activation of local deep cold groundwater flows. In a second hand, to simulate the thermal disturbances related to the air temperature change at the beginning of the Holocene, a geothermal heat flux of 100mWm-2 is necessary.Secondly, we develop a method 1D for estimating the age and amplitude of a sudden temperature change at the boundary of a semi-infinite medium in conduction. The method is tested previously on data resulting from numerical simulations in order to assess its use under a valley side and with a geothermal heat flow. Applied to the temperature disturbances observed the siliceous series of Vanoise, the method leads to a 2,4°C increase of groundwater temperature in decompressed zone around the end of Little Ice Age. The value of 2,4°C is higher than the air temperature increase and explained by a decrease in snow meltwater contribution to the decompressed zone.

Perturbations thermiques

Régime transitoire

Massifs alpins

Paléo-Environnement

Diagraphie thermique

Thermal disturbances

Transient state

Alpine massifs

Paleo-Environment

Thermal logging